KR870000477B1 - Apparatus of detecting irregularity for line - Google Patents

Abstract

The detector has a light projector (1) emitting parallel light beams(a). A light receptor(2) is located opposite the light projector. A linear material e.g. cable to be tested (b) travels in a direction perpendicular to the light(a). A transmissive screen(3) is provided on the front of the receptor. A lens(4) and a pair of photoelectric conversion elements (5) are provided behind the screen. The shadow of the cable is cast on the screen and focused on one of the photoelectric elements. The latter is connected to the input terminals of a differential amplifier(6). The elements are longer than the width of the shadow. If a projection exists on the cable surface, its shadow is also cast on the second conversion elements.

Description

Unevenness detection device on the surface of the frame

1 is a cross-sectional view of the device of the present invention.

2 is a front view of the photoelectric conversion element portion in FIG.

* Explanation of symbols for main parts of the drawings

a: parallel light b: striae

c: Unevenness b ': Shadow of the striae

c ': Shadow of unevenness 1: Floodlight

2: light receiver 3: screen

4: lens 5: photoelectric conversion element

6: differential amplifier

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for detecting irregularities on the surface of a frame, and more particularly, to an apparatus for continuously and non-contactly detecting irregularities on a surface of a frame.

In the extrusion manufacturing process of the ship body such as a power cable or a communication cable, local unevenness may occur on the surface of the ship body, for example, the insulation coating of the cable, so that such local unevenness is detected by inspecting it over the entire length. Needs to be. For this purpose, various detection apparatuses have been used so far, but as an apparatus for continuously and non-contact detection, an optical outer diameter measuring device may be used. However, since the measuring method by this apparatus swings either the light transmitting part or the light receiving part in a direction perpendicular to the traveling direction of the ship body, the surface of the ship body is scanned and the unevenness is detected by the change in the light receiving amount or the light receiving time. In lines traveling at high speeds, irregularities sometimes become excessive without being known, and thus there is a drawback that a certain inspection cannot be performed. In addition, as another measuring method, a change in the diameter of the ship body due to unevenness is detected as a rate of change of the absolute amount of light quantity. This method is weak in vibration and has a disadvantage of being susceptible to changes in the running speed of the ship body. .

Accordingly, an object of the present invention is to provide an apparatus for detecting irregularities on the surface of a structure having no defects as described above. Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the present invention.

As shown in Fig. 1, the detection apparatus according to the present invention comprises a light-transmitting portion 1 of parallel light a and a light-receiving portion 2 disposed opposite to the light-transmitting portion, and the object to be inspected between them. The phosphorus frame b is driven in a direction perpendicular to the parallel light a. The light-receiving part 2 arranges the translucent (light transmissive) screen 3 in front of it, and arrange | positions the lens 4 and the slit type photoelectric conversion element 5 in the back, and screens 3 The shadow b '(see FIG. 2) of the striatum b projected onto is imaged on the surface of the photoelectric conversion element 5 through the lens 4.

As shown in FIG. 2, the photoelectric conversion element 5 has a rectangular shape longer than the width of the shadow b 'of the linear structure, and the long side is oriented at right angles to the traveling direction of the linear structure b. Even if the frame (b) vibrates up and down, the shadow (b ') of the frame is long enough not to deviate from its surface, and a pair of elements are arranged in parallel at regular intervals along the running direction of the frame (b). Be sure to In addition, the output side of each element 5 is brought into contact with the input side of the common differential amplifier 6.

On the other hand, in the configuration of the light receiving portion 2, the screen 3 and the lens 4 are not necessarily required, and the photoelectric conversion element 5 directly directs parallel light a and shadow b 'of the ancestral body. You may be configured to receive. Moreover, when it is necessary to detect an unevenness | corrugation with respect to the whole periphery of the ship body (b), what is necessary is just to arrange | position a plurality of said apparatuses around the ship body.

Since the apparatus of the present invention is configured as described above, when the unevenness (c) is present on the surface of the structure (b), when the shadow c 'of the unevenness is projected on the surface of the photoelectric conversion element 5 and passes through it. Since there is a difference in the area of the shadow projected on one element and the other element, a difference also occurs in the electrical output of each element. Since the difference is amplified and output by the differential amplifier 6, when the alarm or the like is generated when the output level reaches a predetermined level or more, the monitor can easily detect the unevenness of the ancestral body.

As described above, according to the present invention, since a pair of photoelectric conversion elements are arranged at regular intervals along the direction of travel of the ship body, the change in the projected area due to the unevenness of the ship body can be detected as a difference in the electrical output and the surface of the ship body It is possible to detect unevenness continuously. In addition, if the long side of the photoelectric conversion element is formed long enough in the direction perpendicular to the traveling direction of the linear structure so that the width of the shadow of the linear structure does not deviate from the surface of the photoelectric conversion element, the vibration is not affected. On the other hand, even when the diameter of the ship body is changed, only the unevenness is output regardless of the diameter of the ship body. Therefore, even if the diameter of the ship body is changed, it is not necessary to adjust the device and affect the change in the running speed of the ship body. It does not receive the effect.

Claims (1)

A ship body which arrange | positions the light-transmitting part 1 of the parallel light a and its light receiving part 2, opposes, and makes the ship body (b) which is a to-be-tested object travel, and takes out the change of the light reception amount by the fluctuation of the projected area of the ship body In the surface unevenness detection apparatus, a pair of photoelectric conversion elements (5) having a side longer than the width of the shadow (b ') of the linear member (b) projected on the light receiving portion (2) in accordance with the running direction of the linear member. Arranged in parallel at regular intervals, each of the long sides perpendicular to the direction of travel of the striatum, connecting the electrical output of each photoelectric conversion element to the input of the differential amplifier 6, and taking out the differential output. The unevenness detection device on the surface of the structure.

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